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Master of Engineering Science (Microelectronic Engineering)

Course Code: A103A CRICOS Code: 073084J

Duration	Campus and Intake	Fee*
2 Year/s	Hawthorn (Semester 1, Semester 2)	A$24,250 (annual for 2012)

*The indicative course fees shown in Course Search apply to international students studying on-campus in Australia for the relevant year only. They are based on a standard study load per year. However, please note that fees are assessed according to a student's study load in each semester, and variation to study load will result in an adjustment to tuition fees. All fees are subject to annual review and may be adjusted.

About the course

Course Description:

This program replaces Master of Engineering (Microelectronic Engineering) (Honours).

The Master of Engineering Science (Microelectronic Engineering) forms the final stage in a four-stage nested suite of programs consisting of:

The major role of professional engineers is to act as agents for change through the development of technically sound, economically viable and socially acceptable solutions to complex and new technical problems. In this context, the microelectronics engineer today is faced with many challenges brought about by the rapid advances in computer, multimedia and telecommunication technology.

The Master of Engineering Science addresses all aspects of this technology, from high-level specification of microelectronic systems, through implementation alternatives, to realisation of integrated circuits. The course aims to produce engineers with the practical experience and research skills to satisfy the requirements of the microelectronics industry.

Aims & Objectives:

The general aims of the course are to provide graduates with:

High levels of both logical and lateral thinking development so that the graduates can lead constructive change through innovation
The ability to use a multi-disciplinary engineering philosophy towards the synthesis, design and integration of solutions
A level of professional development in confidence, judgment and experience such that the implementation of proposed solutions proceeds successfully

The specific aims of the course are to:

Develop integrated circuit design expertise in embedded system, digital, mixed signal and system-on-chip
Develop understanding of the device physics, fabrication process and testing needed by IC designers
Develop the advanced technical skills necessary to master state of the art microelectronic technology
Develop research skills necessary to obtain specialist knowledge of subjects pertinent to integrated circuit design
Cultivate logical and lateral thinking that leads to creation and innovation in the pursuit of solutions to engineering problems

Course Structure:

Swinburne's Microelectronic Engineering programs are a nested suite, offering students the opportunity to exit at the Graduate Certificate, Graduate Diploma or Master stage. Please note that while the program as a whole is available full-time and part-time*, the final stage is available full-time only.

The Master of Engineering Science (Microelectronic Engineering) comprises 200 credit points, consisting of ten coursework units (125 credit points), a Minor Project (25 credit points), and a Major Research Project (50 credit points).

Preliminary units
Students who lack the appropriate background may be required to do relevant undergraduate units before they commence postgraduate studies of units that assume knowledge in specialist areas. The following units would provide the level of assumed knowledge for all the Microelectronic Engineering courses. These units are offered in the undergraduate program Bachelor of Engineering (Electronics and Computer Systems) and students can enrol in these units concurrent with other master degree units, which do not require the assumed knowledge provided in these units.

HET202 Digital Electronics Design

HET386 Analogue Electronics 2
HET232 Embedded Microcontrollers
HET329 Digital Signal and Image Processing

*Please note that international students holding a student visa are required to study full-time.

Units of Study:

Core microelectronic units
HET6001 HDL and High Level Synthesis

HET6002 Integrated Circuit Design
HET6004 Advanced Digital System Design

Microelectronic design electives

HET6003 Hardware Implementation of Coding and Compression Algorithms

HET6005 Advanced Embedded System Design
HET6008 VLSI Digital Signal Processing Systems
HET6009 Reliability and Testability in IC Design
HET6014 RF and Mixed Signal Design

VLSI design electives
HET6006 Emerging Topics in IC Design
HET6007 Advanced VLSI Design

HET6009 Reliability and Testability in IC Design

HET6012 Semiconductor Device Physics (Sarawak only)
HET6015 Electronic Packaging Design Principles (Sarawak only)

Research and project electives

HIT9010 Research Methods
HMS613 Stochastic Modelling and Survival Analysis

HET6020 Minor Project (25 credit points)
HET6030 Major Project *(50 credit points)

HET6040 Major Research Project

Management electives

HIR506 Technology Management
HES6791 Project Management
HES6175 Project Costing

* Students who intend to do HET6030 Major Project must have successfully completed HIT9010 Research Methods or HMS613 Stochastic Modelling and Survival Analysis in a previous semester as one of the electives.

Recommended study sequence

Stage 1

HET6001 HDL and High Level Synthesis

HET6003 Hardware Implementation of Coding and Compression Algorithms
HET6005 Advanced Embedded System Design
HIR506 Technology Management ^^

Stage 2

HET6002 Integrated Circuit Design

HET6004 Advanced Digital System Design

Choose two from:
HET6008 VLSI Digital Signal Processing Systems

HIT9010 Research Methods or

HMS613 Stochastic Modelling and Survival Analysis [commencing Semester 2, 2011]

HET6014 RF and Mixed Signal Design

Stage 3

HET6020 Minor Project

Choose two from:

HET6007 Advanced VLSI Design
HIT9010 Research Methods
HET6009 Reliability and Testability in IC Design

Stage 4

HET6040 Major Research Project

Note

All units are 12.5 credit points (CP) unless noted otherwise
Onshore international students can undertake no more than 25% of their course by online or distance education and may not study exclusively online/distance in any compulsory study period in accordance with government regulation.

Employment Outcomes

Career opportunities:

Career opportunities involve work in embedded system design, VLSI design, system on chip, chip design, design of DSP-based systems, in a wide range of industries including telecommunications, automotive, chip design and testing corporations (Motorolla, Intel, Bosch, etc) and research organisations.

How To Apply

How to apply:

Apply for this course by following the step-by-step process on our How to Apply page.

English Language Requirements:

Swinburne College English for Academic Purposes Advanced level certificate at the undergraduate level (EAP 5: UG-65% ); OR, Obtaining a minimum IELTS overall band of 6.0 (Academic Module) with no individual band below 6.0; OR, a TOEFL (Paper-based) minimum score of 550 (with Test of Written English (TWE) score of 5); OR, a TOEFL (Computer-based) minimum score of 213 (with Written Writing score of 5); OR, a TOEFL (Internet-based) minimum score of 80 with no band less than 20.

Refer to the English Language Requirements website for further information.

Find Out More

For further information:

Enquire online: http://www.swinburne.edu.au/international/enquiry

Email: international@swinburne.edu.au

Phone:
+613 8676 7002 (outside Australia)
Freecall 1800 897 973 (within Australia)

Information Sessions:

Visit our Meet Us page to see when we are visiting your home country (or here in Australia)

Scholarships:

A range of scholarships is available to international students, visit our Scholarship Page for details.